Intro

Electronic and communication engineers help make our lives easier, safer and more connected. Using their technical skills they are crafting innovative devices and communication systems with the power to change the world. It’s not all about the technology, their work makes a real impact in tackling real-world challenges from digital security to enhancing healthcare.

Our Electronic and Communication Engineering BEng(Hons) degree explores areas including embedded systems, communications, AI and digital systems design, and prepares you for work as a professional electronic engineer.

Our Electronic and Communication Engineering MEng offers an extra year of study at masters level.

Key facts

Location 91¶¶Òõ: Moulsecoomb

UCAS code HG64

Full-time 3 years
With placement year 4 years

Accredited by the Institution of Engineering and Technology

What are my next steps?

Open days are the best way to find out about your course, the campus where you'll be based, and get a feel for the 91¶¶Òõ.

Book your place: Moulsecoomb campus open day 14 June

Or if you're ready,

Entry criteria

Entry requirements

A-levels or BTEC
Entry requirements are in the range of A-level BBB–BCC (120–104 UCAS Tariff points), or BTEC Extended Diploma DMM–MMM. Our conditional offers typically fall within this range.

A-levels must include maths at grade C and a physical science. BTEC to include further maths for engineering techs.

International Baccalaureate
26 points, with three subjects at Higher level. Higher level subjects must include maths and physics at grade 5.

Access to HE Diploma
Pass with 60 credits overall. Level 3 units in maths, computing and a physical science required. At least 45 credits at level 3, with 24 credits at merit or above.

GCSE (minimum grade 4 or grade C)
Must include English language, maths and a physical science.

Studied before or got relevant experience?
A qualification, HE credits or relevant experience may count towards your course at 91¶¶Òõ and could mean that you do not have to take some elements of the course or can start in year 2 or 3. 

English language requirements
IELTS 6.0 overall with a minimum of 5.5 in each element. Find out more about the other English qualifications that we accept.

Other
Foundation course with maths and a physical science.

We also offer this degree with an integrated foundation year for applicants who do not meet the standard entry requirements.

International requirements and visas

International requirements by country
Country name
Albania
Algeria
Argentina
Australia
Austria
Bahrain
Bangladesh
Belarus
Belgium
Bermuda
Bosnia and Herzegovina
Botswana
Brazil
Bulgaria
Burma (Myanmar)
Cameroon
Canada
Chile
China
Colombia
Croatia
Cyprus
Czech Republic
Denmark
Ecuador
Egypt
Estonia
Finland
France
Germany
Ghana
Greece
Guyana
Hong Kong
Hungary
Iceland
India
Indonesia
Iran
Iraq
Ireland
Israel
Italy
Jamaica
Japan
Jordan
Kazakhstan
Kenya
Kosovo
Kuwait
Latvia
Lebanon
Liechtenstein
Libya
Lithuania
Luxembourg
Macedonia
Malaysia
Malawi
Malta
Mexico
Moldova
Montenegro
Morocco
Namibia
Nepal
Netherlands
New Zealand
Nigeria
Norway
Oman
Pakistan
Palestinian National Authority
Philippines
Poland
Portugal
Qatar
Romania
Russian Federation
Saudi Arabia
Serbia
Sierra Leone
Singapore
Slovakia
Slovenia
South Africa
South Korea
Spain
Sri Lanka
Syria
Sweden
Switzerland
Taiwan
Tanzania
Thailand
Tunisia
Turkey
Uganda
Ukraine
United Arab Emirates
United States
Uzbekistan
Venezuela
Vietnam
Yemen
Zambia
Zimbabwe

We can help you meet our English language or academic entry requirements.

View our English language courses

For pre-sessional English preparation courses.

For degree preparation courses.

Visas and immigration advice

Applying for a student visa

Check out our step-by-step guidance.

Contextual admissions

At 91¶¶Òõ, we understand that not everyone has the same opportunities, and some may face extra challenges to meet grade requirements. Every 91¶¶Òõ applicant is treated as an individual and we value creativity, persistence, resourcefulness and big ideas alongside grades.

If you meet our contextual admissions criteria and the subject-specific A-level and/or GCSE requirements for this course, your offer from us will be at least two grades or 16 UCAS tariff points lower than the standard for your course. Find out about contextual admissions at 91¶¶Òõ.

With a contextual offer, you may also qualify for extra financial support through our 91¶¶Òõ Boost cost of living package. Find out about the 91¶¶Òõ Boost.

Graphic with the text 'Potential + possibility'

Course content

Top reasons to choose this course

  • Exciting project work that mirrors industry
  • Learn with internationally recognised researchers who are part of our Advanced Engineering Centre, and our Centre for Precision Health and Translational Medicine
  • Student-led Sustainable Technology and Engineering Projects (STEP) lab – working to solve energy challenges
  • Specialist facilities including CISCO certified communications and cybersecurity lab, flight and car simulators, wind tunnel, prototyping labs and workshops, CNC machines and robotics and VR labs
  • Professionally accredited by the Institution of Engineering and Technology
  • Work with engineering specialists and innovative researchers on challenging and rewarding projects such as fighting robots, rocket cars and the International Engineering Without Borders challenge
  • Professional engineers visit to share their experiences through guest lectures
  • Gain a year of work experience on placement

Making sure that what you learn with us is relevant, up to date and what employers are looking for is our priority, so courses are reviewed and enhanced on an ongoing basis. When you have applied to us, you’ll be told about any new developments through .

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Second year students put learning into practice with the Robot Wars project.

Year 1

The first year is shared with our Electrical and Electronic Engineering course. You will explore fundamental electronic engineering topics including engineering concepts, digital electronics and mathematics.

Design projects enable you to integrate practical and theoretical work and help to reinforce what you are learning.

Modules

  • Engineering Mathematics

    In this module you will learn to apply mathematical concepts and software tools to solve engineering problems. On completion you will be able to use analytical techniques and software tools to solve simple algebraic problems, develop mathematical models of engineering systems and apply an appropriate analytical method or software tool to solve a mathematical model.

  • Introduction to Electrical Engineering

    This module will provide you with context and practical experience of electrical engineering. You will be introduced to fundamental characteristics of power system components, electrical power generation and distribution systems.

  • Engineering Practice

    On this module you will develop your engineering skills using projects as the focus of your learning. You will work on group projects, applying engineering skills such as reflection, organisation, planning, design, communication and planning. You will be introduced to concepts across a range of engineering specialisms as part of a problem-based approach.

  • Introduction to Artificial Intelligence

    This module introduces artificial intelligence (AI), giving you the skills needed for specialist study later in your degree. You'll cover the principles and techniques of AI and gain and understanding of how to apply the techniques to real-world problems and situations.

  • Analogue and Digital Electronics

    This module introduces the essential components and signals found in analogue and digital electronic systems. You'll explore analysis tools that enable you to extract reliable and useable data and signals from circuits, and learn how to use the tools to measure and improve electronic systems.

  • Embedded Systems 1

    This module enables you to build a base of knowledge and skills in programming using the C language (a very common language used in embedded systems).

    You'll use the open-source electronic prototyping platform Arduino with its mix of sensors and actuators, motivating you to set programme challenges for yourself.

Student in electrical engineering lab working with a laptop, worksheet and circuit testing equipment

Year 2

Building on the knowledge and skills developed in year 1, you will explore topics such as computer programming, radio and navigation systems, microcontrollers and programmable logs.

You will learn programming to an advanced level and spend time in our specialist labs compiling, simulating and implementing your designs.

Modules

  • Communication Networks

    Communication Networks will develop your understanding of the principles of analogue communications systems and network protocols. You'll get to grips with basic network configuration and troubleshooting, identifying LAN security threats alongside configuring and securing a basic WLAN.

  • Dynamics and Control

    This module introduces concepts to describe the dynamic behaviour of practical engineering systems. You'll learn to build mathematical models for engineering systems that can be used to analyse and predict the dynamic behaviour of mechanical systems. You'll also explore design and simulation methodologies for systems to control the dynamic behaviour of engineering systems. 

  • Electrical Engineering 2

    Electrical Engineering 2 is an exploration of fundamental concepts used in the electrical power industry. You'll be introduced to the design and analysis of single and three phase electrical power systems, and to the design and operation of electrical power and conversion devices.

  • Digital Systems Design

    Digital Systems Design builds on your knowledge of basic combinational logic and sequential systems design. You'll apply these designs to programmable logic using VHDL as a hardware description language. The module is hands-on and you'll spend time in the laboratory compiling, simulating and implementing your designs using FPGA development software and hardware.

  • Engineering Design

    On this module you’ll develop the knowledge and skills needed to undertake and apply engineering theory to design practice. You’ll work in multidisciplinary groups on the design and manufacture of an engineering project – from market research to product ideation, development and launch – ending with a competitive test of the product’s functionality.

  • Embedded Systems 2

    Building on Embedded Systems 1 from your first year, this module enhances your understanding of microcontroller operation by relating software instructions to the hardware architecture using assembly code. You'll extend your C programming skills to be able to use the full functionality of microcontroller technology in an embedded real-time application.

Student with long hair in front of computer working a robot arm

Placement year

A placement year offers you a great opportunity to:

  • build knowledge of real-world businesses and organisations
  • develop existing skills and discover new ones
  • make contacts in industry and commerce
  • increase your confidence
  • improve your time management.

You will also gain the appropriate amount of work experience to reach Engineering Technician (EngTech) status.

Our students have been on placement with companies including:

  • Network Rail
  • General Electric
  • Rolls-Royce
  • Cummins Generator Technology.
Three students working in the engineering STEP lab

Final year

Areas of study include digital signal processing, microprocessor systems design and product innovation and management.

You will also undertake an individual project giving you the opportunity to explore an area that interests you most.

Modules

Core modules

  • Individual Project

    In this module you’ll be both technical expert and project manager of your major individual project which investigates a technical problem in significant depth. You’ll work independently, with a member of academic staff acting as project adviser, building your confidence and competence in project management. The project enables you to bring together the skills you’ve learned during your degree, such as research, analysis and engineering application.

  • Product Design

    This module enables you to further develop the knowledge and skills needed to design engineering products and components. Through a project-based approach, you'll develop your ability to apply design techniques that underpin the generation of new products, alongside examining the management and professional techniques used when releasing new products into the marketplace.

  • Wireless Computer Networks

    On this module you'll develop advanced knowledge of the key design aspects of modern wireless communication systems. You'll also explore communication systems theory and the latest innovations in technology.

Options*

  • Digital Signal Processing

    Digital Signal Processing prepares you to apply digital signal algorithms to real-time signals. You'll develop the knowledge, skills and understanding to implement digital signal processing algorithms operating on real-time one-dimensional data. Part of your assessment will be a technical report detailing your investigation, evaluation and implementation of FIR and IIR filters in a real-world situation.

  • Networking

    Large enterprises depend heavily on the smooth operation of their network infrastructures. You'll explore the architectures and considerations related to designing, securing, operating and troubleshooting enterprise networks. The module will also prepare you for CCNA certification as an optional activity. 

  • AI/ML for Robotics Communication Systems

    This module introduces artificial intelligence and machine learning techniques and applications used in robotics and communication systems. You'll develop in-depth knowledge of topics such as neural networks, data mining, information filtering, node-to-node communication and mobile/wireless communications like 5G and B5G. And you'll use that knowledge in a group practical project to design and build a system.

*Option modules are indicative and may change, depending on timetabling and staff availability.

Group of students working with the robotic dog

Staff profile

, course leader

In my role as a course leader I make a conscious effort to bring real-world examples and experiences into the classroom, bridging the gap between theoretical concepts and practical applications. Engaging with current industry trends, challenges and innovations allows me to provide students with valuable insights that extend beyond the textbook. Additionally, I maintain an active presence in professional networks, fostering collaborations and partnerships that can enhance the learning experience for my students.

Our students engage extremely well in practical, hands-on learning from industry visits and guest lectures to design and build projects and participating in competitions. Students also have opportunities to get involved in diverse and impactful research projects, applying their theoretical knowledge to real-world problems. Recent examples of student involvement include students contributing to the optimisation of a communication protocol for a low-power, long range wireless sensor network, and a research initiative focused on developing a real-time algorithm for the early detection of anomalies in ECG signal.

One of the most rewarding aspects of teaching undergraduates lies in witnessing the transformative journey as students navigate through their academic pursuits. The joy stems from facilitating the acquisition of knowledge and skills, fostering critical thinking, and observing students evolve into capable, enthusiastic professionals. The vibrant interactions with students, their diverse perspectives and the collaborative learning environment create a dynamic and enriching atmosphere that adds a sense of purpose and excitement to the teaching experience.

Zuhaib Khan headshot looking at the camera

More about this subject at 91¶¶Òõ

Careers

Becoming an engineer 

This course is accredited by the Institution of Engineering and Technology (IET).

Professional accreditation ensures the content of the course prepares you for your career as well as giving you a strong academic grounding.

On successful completion of this course, you'll be eligible to apply for Incorporated Engineer (IEng) status.

You can progress to Chartered Engineer status (CEng) following further study and experience.

IET logo

Prepare for your career 

In your career you need a combination of knowledge, skills, personal qualities and relevant experiences – and you’ll get all of this from your degree. 

Project work in groups with other engineering specialists develops your teamwork, project management, presentation and communication skills, giving you hands-on experience that mirrors industry.

  • Build and fight your own robot for our annual combat robot competition
  • Collaborate on projects that reflect real engineering challenges in the student-run Sustainable Technology and Engineering Projects (STEP) Lab
  • You’ll also have opportunities to get involved in real industrial projects.

Facilities for learning  

You’ll have access to our specialist facilities for hands-on learning.

Facilities include:

  • the Sir Harry Ricardo labs
  • a Simulation Suite with flight simulators and a car simulator that use VR and motion platform tech
  • a wind tunnel
  • prototyping labs and workshops in our advanced engineering building
  • 3D printers and CNC machines.
Aero simulator 360
Click to view a virtual tour of some of our facilities.

Industry/Professional links 

We work closely with industry to make sure you develop the skills and knowledge needed in the workplace.

  • Our industrial liaison panel advises on the content of our course.
  • Guest lectures from industry give you a feel for what it’s really like to be an engineer.
  • You will showcase your individual project to potential employers at the final year project exhibition.
  • 91¶¶Òõ technology company, Paxton, offers our engineering, computing, maths and product design students three scholarships a year worth £10,000 and a three-month paid placement.

Graduate destinations 

Our graduates are working in companies including:

  • Rolls-Royce
  • Network Rail
  • Southern Water
  • Edwards High Vacuum
  • Innogy
  • Electa
  • Eurotherm
  • Paxton Access.

Further study 

You can progress to year 3 or 4 of our integrated masters MEng if you achieve the required standard in year 2 or 3 of the BEng.

Advanced Engineering Building

Supporting your employability 

Outside of your course, our Careers Service is here to support you as you discover (and rediscover) your strengths and what matters to you. We are here for you throughout your university journey as you work towards a fulfilling and rewarding career.

Connect with our careers team

  • Find part-time work that you can combine with your studies.
  • Find, or be, a mentor or get involved with our peer-to-peer support scheme.
  • Develop your business ideas through our entrepreneurial support network.
  • Get professional advice and support with career planning, CV writing and interview top tips.
  • Meet potential employers at our careers fairs.
  • Find rewarding volunteering opportunities to help you discover more about what makes you tick and build your CV.

Whatever your career needs, we are here to help. And that’s not just while you are a student – our support carries on after you’ve graduated.

Find out more about our Careers Service...

Coloured background with the words Be More, Connected, Skilled, Employable

Fees and costs

Course fees

UK (full-time) 9,535 GBP

International (full-time) 17,250 GBP

This course offers a professional placement (sandwich) year in year 3. If you choose to take this placement you will pay a reduced fee during this year. For students starting their undergraduate degree in the 2025–26 academic year, the fee for the professional placement year is £1,500 for UK students and £1,850 for international students. This fee may be subject to small increases in line with inflation.

91¶¶Òõ Achieves scholarship – Engineering

The Gittins Family Charitable Trust supports this scholarship which offers £1,000 a year for three years of undergraduate study in one of eight engineering courses. Three scholarships are available to students in their first year of study who have a home household income of £25k–£45k. Find out how to apply.

The fees listed here are for the first year of full-time study if you start your course in the academic year 2025–26.

You will pay fees for each year of your course. Some fees may increase each year.

UK undergraduate and some postgraduate fees are regulated by the UK government and increases will not be more than the maximum amount allowed. Course fees that are not regulated may increase each year by up to 5% or RPI (whichever is higher).

If you are studying part-time your fee will usually be calculated based on the number of modules that you take.

Find out more

What's included

Here you’ll find details of specific resources and services that are included in the tuition fee for our School of Architecture, Technology and Engineering students. To help you to budget for your studies, there is also information on any additional costs that you may have to pay or can choose to pay in addition to your tuition fee.

Find out how tuition fees enable us to support all of our students with important services, facilities and resources across the university - /whats-included-in-your-fee - and check out our finance pages for info about fees, funding and scholarships along with advice on international and island fee-paying status - /fees-and-finance.

You can chat with our enquiries team - /enquiries - if you have a question or need more information.

You may have to pay additional costs during your studies. The cost of optional activities is not included in your tuition fee and you will need to meet this cost in addition to your fees.

  • Travel and accommodation costs are included for all mandatory taught residential field trips, but you’ll need to provide your own food and drink.
  • There will be opportunities to attend additional study trips or optional taught residential field trips throughout the school, but these are not required to pass your course. Normally, a contribution will be required towards expenses such as travel, entrance fees and accommodation. This will vary depending on where and how long the trip is, but you should budget around £1,500.
  • Where optional international field trips are offered, these are not required to pass your course. You should expect to budget £300–£500 for these, to cover flight, accommodation, food and entrance to museums. The total amount spent would be based on location and number of trips taken.
  • If you choose to take an optional paid placement, you’ll be expected to cover your own travel, accommodation, food and drink.
  • Some students require specialist outdoor equipment and/or personal protective equipment (PPE) and should budget up to £150.
  • You will have access to computers and necessary software; however, many students choose to buy their own hardware, software and accessories. The amount spent will depend on your individual choices, but this expenditure is not essential to pass any of our courses. Find out what free software is available from the 91¶¶Òõ.
  • Course books are available from the university, but you may wish to budget from £15 to £100 per year to buy your own copies and subscribe to design magazines.
  • In most cases coursework submissions are electronic but students may wish to print notes which would involve an extra cost.
  • Costs of up to £50 are included in the fees for students on engineering courses to pay for materials for their final year projects. On rare occasions where material costs exceed £50, they will need to be paid for by the student.

Architecture, interior architecture, design and product design additional costs

  • Students should budget around £25 for printing and binding dissertations in their final year.
  • In your first year of studies, you will need to buy a drawing and modelling toolkit. Each course will suggest a list of items of which some will be essential, and others optional. You should budget around £100–£250 for these.
  • For most courses you will need to budget between £100 to £300 per year for printing and portfolio costs. Costs will vary depending on type of printer and type and size of paper used. Some students tend to work digitally, spending more on printing and some by hand, spending more on materials so these costs vary widely between students.
  • For most courses you will need to budget between £10 and £100 for material costs per design project. Costs will vary depending on how and what you use to make models. You are encouraged to recycle used materials where possible.
  • You will need to budget between £5–£50 to exhibit work for the end-of-year show. Fundraising by the student society, BIAAS, normally helps towards this cost.

Location and student life

Campus where this course is taught

Moulsecoomb campus

Two miles north of 91¶¶Òõ seafront, Moulsecoomb is our largest campus and student village. Moulsecoomb has been transformed by a recent development of our estate. On campus you’ll find new Students’ Union, events venue and sports and fitness facilities, alongside the library and student centre.

Over 900 students live here in our Moulsecoomb Place halls and the new Mithras halls – Brunswick, Goldstone, Hanover, Preston and Regency.

Moulsecoomb has easy access to buses and trains so you can access all the exciting things happening in our home city.

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Accommodation

We guarantee an offer of a place in halls of residence to all eligible students. So if you applied for halls by the deadline you are guaranteed a room in our halls of residence.

91¶¶Òõ: Moulsecoomb

Halls of residence
We have self-catered halls on all our campuses, within minutes of your classes, and other options that are very nearby.

You can apply for any of our halls, but the options closest to your study location are:

  • Mithras Halls are stylish new high-rises in the heart of the student village at our revitalised Moulsecoomb campus with ensuite rooms for more than 800 students.
  • Varley Park is a popular dedicated halls site, offering a mix of rooms and bathroom options at different prices. It is around two miles from Moulsecoomb campus and four miles from the city centre, and is easy to get to by bus.

Want to live independently?
We can help – find out more about private renting.

Relaxing in halls

Modern accommodation at Moulsecoomb

Mithras halls room with a view

Relaxing in halls near the campus

Student Union social space

Student Union social space at Moulsecoomb

Local area

One of Time Out's 50 best cities in the world

“91¶¶Òõ has… all the important parts of a sprawling cosmopolitan metropolis (connections to London in under an hour, an array of properly excellent restaurants, energetic late-night spots) … with the easy-breezy beachy attitude to life that makes you feel welcome in an instant.”
Time Out’s 50 Best Cities in the World, 2025

About 91¶¶Òõ

The city of 91¶¶Òõ & Hove is a forward-thinking place which leads the way in the arts, technology, sustainability and creativity. You'll find living here plays a key role in your learning experience.

91¶¶Òõ is a leading centre for creative media technology, recently named the startup capital of the UK.

The city is home to a national 5G testbed and over 1,000 tech businesses. The digital sector is worth over £1bn a year to the local economy – as much as tourism.

All of our full-time undergraduate courses involve work-based learning - this could be through placements, live briefs and guest lectures. Many of these opportunities are provided by local businesses and organisations.

It's only 50 minutes by train from 91¶¶Òõ to central London and there are daily direct trains to Bristol, Bedford, Cambridge, Gatwick Airport, Portsmouth and Southampton.

Map showing distance to London from 91¶¶Òõ
91¶¶Òõ Beach sunset

Maps

Moulsecoomb campus map

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Support and wellbeing

Your course team

Your personal academic tutor, course leader and other tutors are all there to help you with your personal and academic progress. You'll also have a student support and guidance tutor (SSGT) who can help with everything from homesickness, managing stress or accommodation issues.

Your academic skills

Our 91¶¶Òõ Student Skills Hub gives you extra support and resources to develop the skills you'll need for university study, whatever your level of experience so far.

Your mental health and wellbeing

As well as being supported to succeed, we want you to feel good too. You'll be part of a community that builds you up, with lots of ways to connect with one another, as well having access to dedicated experts if you need them. Find out more about how we support your wellbeing.

Sport at 91¶¶Òõ

Sport 91¶¶Òõ

Sport 91¶¶Òõ brings together our sport and recreation services. As a 91¶¶Òõ student you'll have use of sport and fitness facilities across all our campuses and there are opportunities to play for fun, fitness or take part in serious competition. 

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Sports scholarships

Our sports scholarship scheme is designed to help students develop their full sporting potential to train and compete at the highest level. We offer scholarships for elite athletes, elite disabled athletes and talented sports performers.

Find out more about sport scholarships.

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Take a tour of sport facilities on our Falmer campus

Stay in touch

Ask a question about this course

If you have a question about this course, our enquiries team will be happy to help.

01273 644644

Statistics

Find out more about how the academic year and degree courses are organised and about learning and assessment activities you might get to grips with at 91¶¶Òõ. More specific information about this course is detailed in the programme specification (linked below). You can find out also about the support we offer to help you adjust to university life.

Course and module descriptions on this page were accurate when first published and are the basis of the course. Detailed information on any changes we make to modules and learning and assessment activities will be sent to all students by email before enrolment so that you have all the information before you come to 91¶¶Òõ.

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Course specification

Course specifications are the approved description of each course. They contain a breakdown of the content and structure of the course, learning outcomes and assessment. Course specs are updated following course changes.

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